Background: Soy protein isolate (SPI) has poor emulsifying ability because of its low molecular flexibility and compact structure, limiting its application in extruded protein-based foods. Extrusion technology has emerged as a promising way to alter the structural properties of proteins. Therefore, the impacts of grape seed proanthocyanidin (GSP) on structural and emulsifying characteristics of SPI in extrusion field were explored in this study.
Results: After extrusion treatment, the molecular chains of SPI were unfolded. In comparison with extruded SPI, the interaction with GSP led to a rightward shift in particle size distribution and an enhancement in zeta potential values of the protein. As GSP concentration increased from 20 to 80 g kg-1, the free sulfhydryl content of SPI was reduced by 4.17%, 25%, 29.24% and 35.85% compared with that of extruded SPI. The addition of GSP altered the secondary structure of SPI and enhanced the microenvironment polarity. Meanwhile, SDS-PAGE results indicated that the protein presented lower molecular weight with the introduction of GSP. Compared with extruded SPI, the supplementation with GSP increased the molecular flexibility while it decreased the surface hydrophobicity of SPI. Correlation analyses demonstrated that these structural changes induced an improvement in emulsifying activity and emulsion stability of SPI. GSP mainly binds to SPI through hydrogen bonds and hydrophobic interactions under the extrusion environment.
Conclusion: This study demonstrated that GSP is a potential modifier, which can be applied to improve the emulsifying capacity of extruded SPI-based foods. © 2025 Society of Chemical Industry.
Keywords: complexation; emulsifying properties; extrusion; grape seed proanthocyanidin; soy protein isolate.
© 2025 Society of Chemical Industry.